DRINKING WATER CASE STUDIES AND WHITE PAPERS

• Lincoln Winwater Safeguards City Water Supply

  The City of Papillion in Nebraska is home to around 20,000 residents who receive their water from two large water towers. These towers are fed by a pump station with the original pipeline infrastructure dictating that both towers needed to be filled simultaneously.

• Coastside County Water District, California Drives System Reliability And Sustainability With Microclor® On‐Site Hypochlorite Generation, Encore® Metering Pumps And PolyBlend® Polymer Activation

  Located in northern California, the Coastside County Water District (CCWD) provides treated water to the scenic town of Half Moon Bay and several unincorporated communities in the area. The system is served by two treatment plants, the Nunes Water Treatment Plant (4.5 MGD) and Denniston Creek Water Treatment Plant (1.0 MGD) and water is distributed through about 100 miles of transmission and distribution pipe.

• Four Day Pilot Study For Iron And Manganese Does The Trick (Loprest)

  The City of Southgate, California wanted to investigate the effect of replacing the existing media in their Well 27 treatment plant. The plant would not reduce the incoming manganese levels to below the 50 μg/l MCL. It has been theorized that the existing media has become fouled beyond cleaning during the one year plus of non-operation while contained in the filter tank full of water. That environment could produce a likely source of biological and other sources of fouling.

• Project Profile: City of Aurora, Oregon

  In late 2009, Water Works Engineers contacted AdEdge to design and implement an arsenic, iron and manganese removal system to serve the City of Aurora, Oregon. By AdEdge Technologies Inc.

• The Payoff From Improved Chemical Dilution

  Chemical dilution systems play a critical role in many municipal and industrial water treatment systems. However, older technology tends to be less reliable and accurate while being a drain on resources, whereas a more advanced solution can significantly improve performance and generate labor savings.

• Disinfection Technologies: How Do You Make the Right Choice?

  The right disinfection technology is crucial for meeting regulatory standards and ensuring safety. This article compares the pros and cons of chlorine, peracetic acid (PAA), ozone, and UV disinfection.

• Modern Metering Adoption At Smaller Public Water Systems

  As with most things in life, there are those water utilities that have and those that don’t. According to the EPA, less than 3% of the 150,110 operational public water systems (PWS) in the U.S. serve more than 10,000 people. And those 4,500 systems serve 79% of the population. Not that being big means living trouble free. Many of these water authorities serve cities plagued by under investment over decades in their water systems. And yet with large rate-bases comes the means to spread the investment in modern technology across many households and water consumers.   

• Why Is Kemio Technology Suitable For Monitoring Drinking Water Quality?

  In this article, read about a platform that ensures safe drinking water and offers a user-friendly, four-step procedure for repeatable and reliable results without the need for interpretation.

• Case Study: Seawater Desalination At Rabigh Refinery Saudi Aramco’s RABIGH Refinery in Saudi Arabia wanted to install facility for 10000 TPD Seawater Desalination for the industrial use. The facility was supposed to be a BOOT (Build Own Operate Transfer) basis. By Aquatech International Corporation
• Automated Disinfectant Generation And Control Systems Produce Consistent Residual Levels In Aqua Pennsylvania's Distribution System

  Aqua Pennsylvania (Aqua PA), an Aqua America subsidiary, serves more than 1.4 million people in 32 counties across Pennsylvania. Aqua PA has significant experience using chloramine chemistry to mitigate trihalomethane (THM) disinfection byproduct formation in its many distribution systems.